Wooden skyscrapers: Sustainable homes of the future?

Cambridge University
27 Jun 201909:32

Summary

TLDRThe video discusses the urgent need for sustainable urban development as the global population grows, with a focus on using natural materials like timber in construction. It highlights the advantages of cross-laminated timber (CLT) for building skyscrapers, including its eco-friendliness and potential to reduce carbon emissions. The video emphasizes that engineered wood is not only strong but also a viable alternative to steel and concrete. It also addresses concerns about fire safety, deforestation, and the future of architectural innovation using natural materials.

Takeaways

  • 🌍 Global urban population growth is accelerating, creating a pressing need for sustainable city-building solutions.
  • 🏙️ In the next 30 years, 150 major cities are projected to double in urban population, leading to a massive demand for residential infrastructure.
  • 🏗️ Architects must embrace eco-friendly and sustainable building materials to address this growing urban demand.
  • 🌲 The Oakwood Timber Towers project explores the use of engineered wood, aiming to build skyscrapers up to 300 meters tall using natural materials.
  • 🌳 Engineered wood, such as cross-laminated timber (CLT), is a sustainable alternative to steel and concrete, helping reduce global carbon emissions.
  • 🪵 CLT is lightweight, strong, sequesters carbon, and is prefabricated, making it efficient and eco-friendly for construction.
  • 🔥 Concerns like fire safety, rot, and structural strength in wooden skyscrapers are mitigated by the engineered wood's unique properties, such as self-insulating char layers during combustion.
  • 🌬️ Wooden skyscrapers may be more susceptible to wind due to their lighter weight, requiring specialized design to handle wind loads and movement.
  • 🔬 Research at Cambridge University focuses on enhancing wood’s structural properties and potentially replacing traditional construction methods with molecular bonding.
  • 🌱 Sustainable forestry is critical for wooden construction, ensuring forests are managed responsibly, with more trees being planted than harvested, which can also improve urban environments through biophilic design.

Q & A

  • What challenge does the growing global urban population present for cities?

    -The rapid growth of the global urban population is creating an urgent need for cities to be built more sustainably to accommodate this increase, as approximately 150 major cities are expected to double their population in the next 30 years. This could lead to a catastrophic residential demand unless new construction methods are adopted.

  • Why is it important for architects to consider eco-friendly materials?

    -Architects must acknowledge their responsibility to choose sustainable and eco-friendly materials because of the urgent need to reduce the environmental impact of construction, particularly in light of global carbon emissions and the increasing demand for urban housing.

  • What is significant about the Oakwood Timber Towers project?

    -The Oakwood Timber Towers project, initiated with the collaboration of Cambridge University and Smith and Wallwork engineers, was designed to explore the potential of building a skyscraper using wood. Initially planned for 100 meters, the project aimed to push the boundaries of construction by considering a 300-meter wooden tower.

  • How does building with wood differ from using traditional materials like steel and concrete?

    -Building with wood, particularly engineered wood like cross-laminated timber (CLT), offers a sustainable alternative to steel and concrete. Wood is renewable, sequesters carbon, is lighter than steel and concrete, and can be pre-manufactured in factories, reducing on-site construction time and waste.

  • What is cross-laminated timber (CLT), and why is it beneficial for construction?

    -Cross-laminated timber (CLT) is a type of engineered wood made by gluing layers of wood at 90-degree angles to each other. It is beneficial because it is strong, lightweight, consistent in quality, and can be pre-fabricated. It also sequesters carbon, making it an environmentally friendly choice.

  • What are the common concerns about using wood in skyscrapers?

    -The most common concerns when using wood in skyscrapers are fire safety, potential deforestation, and wood rot. However, large solid wood panels, like those used in timber skyscrapers, behave more like tree trunks, insulating the inner layers with a protective charcoal layer in the event of a fire.

  • How does the molecular structure of wood contribute to its strength?

    -Wood’s strength comes from its three main components: cellulose, xylan, and lignin. These molecules interact closely, with xylan forming a complementary structure with cellulose fibers, 'zipping up' to create a strong, cohesive molecular structure.

  • What challenges do timber skyscrapers face in terms of wind resistance?

    -Timber skyscrapers are lighter than those made of steel or concrete, making them more susceptible to wind-induced movement and vibrations, which can cause discomfort for occupants. Engineers need to design structures that mitigate these effects to ensure stability and comfort.

  • Why is sustainable forest management important for timber construction?

    -Sustainably managed forests are crucial for timber construction because deforestation is primarily caused by agricultural expansion, not timber harvesting. Sustainable forestry ensures that wood used in construction is renewable, with forests replenished as trees are harvested.

  • What psychological and societal benefits can timber buildings offer?

    -Timber buildings contribute to biophilia, the idea that integrating natural materials like wood into urban environments can improve psychological well-being. Studies show that timber buildings reduce stress, lower heart rates, and foster a greater sense of community, making cities more livable.

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Etiquetas Relacionadas
Sustainable BuildingTimber TowersEco-friendly MaterialsGreen ArchitectureCarbon EmissionsUrban DevelopmentWooden SkyscrapersArchitectural InnovationEnvironmental ImpactFuture Cities
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